Introduction
Rapid sequence intubation (RSI) is a process whereby an induction agent and a neuromuscular blocking agent are given in rapid succession to facilitate endotracheal intubation. Etomidate remains the most commonly used induction agent; however, it is not without its own pharmacologic considerations such as the decrease in seizure threshold.
Key Considerations for RSI Agent Selection
- The clinical scenario, including cardiorespiratory and neurologic status
- Patient factors: allergies, comorbidities, and seizure history
- Clinician experience/training and institutional factors
- Pharmacologic characteristics of the sedative — including seizure threshold effects
Pharmacology of Etomidate
| Parameter | Details |
|---|---|
|
Dose
|
IV: 0.3 mg/kg |
|
Administration
|
IV push |
|
Formulation*
|
20 mg/10 mL · 40 mg/20 mL *Various formulations may appear; check your institution formulary |
|
PK/PD
|
Onset: ~20 seconds
Duration: 4–10 min
Metabolism: Hydrolysis of ethyl ester side chain
Renal excretion: 75%
|
|
Adverse Effects
|
Injection site pain
Nausea/Vomiting
Myoclonus
|
|
Drug Interactions
|
No major reactions |
|
Compatibility
|
Incompatible: Vitamin C, vecuronium |
|
Comments
|
Hypothetical concerns about adrenal insufficiency with a single dose. Hemodynamically neutral. |
Clinical Pearl
Etomidate is hemodynamically neutral, making it the most commonly used RSI induction agent. However, clinicians must weigh the risk of myoclonus and potential seizure threshold lowering in patients with known seizure disorders.
Hemodynamic Comparison of RSI Agents
| Drug | Hemodynamic Effects | Comments |
|---|---|---|
| Etomidate |
↔ BP
↔ CO
↔ HR
↓ Cortisol
↔ ICP
|
Prolonged inhibition of steroid synthesis in critically ill; withdrawn from a number of countries |
| Ketamine |
↑ BP
↑ HR
↑ CO
↔ Cortisol
↑↓ ICP
|
↔ or ↑ CPP and ↔ ICP with standard anesthetic management |
| Propofol |
↓ BP
↔ HR
↓ CO
↔ Cortisol
↓ ICP
|
Hemodynamic compromise marked in elderly, ASA 3+ or hypovolemic patients with standard induction dose |
Overview of Key Evidence
| Author / Year | Design (n) | Intervention | Key Findings |
|---|---|---|---|
| Perier et al., 20182 |
Retrospective
n=97 |
Etomidate vs sodium thiopental for RSI in convulsive status epilepticus |
Seizure recurrence: 56% etomidate vs 44% thiopental
|
| Gabor, 200610 |
Retrospective
n=30 |
Propofol 1 mg/kg vs etomidate 0.2 mg/kg for electroconvulsive therapy |
Longer seizure durations with etomidate (EEG & EMG)
|
| Zuckerbraun et al., 20063 |
Retrospective
n=101 |
Etomidate for RSI in general population |
No relationship between seizures & prior history (p=0.25)
|
| Guldner, 20035 |
Retrospective
n=105 |
Etomidate for RSI in general population |
No myoclonus, status epilepticus, or new-onset seizures
3 pts vomited within 10 min |
| Reddy, 19936 |
Prospective RCT
n=68 |
Etomidate, thiopental, methohexital, or propofol for anesthesia induction |
Myoclonus: etomidate 86%
No generalized epileptiform activity on EEG
vs thiopental 16.6%, methohexital 12.5%, propofol 5.5% |
| Ebrahim, 19867 |
Case Reports
n=12 |
Etomidate for anesthesia induction in patients with intractable seizures |
9/12 pts: increased epileptiform activity
6/9 had marked increase; EEG via subdural electrodes |
Clinical Conclusions
Bottom Line
Etomidate elicits myoclonus in a significant number of patients, but whether myoclonus is associated with EEG-confirmed epileptiform activity remains uncertain. Risk versus benefit assessment is required for patients with seizure history.
Etomidate has been shown to elicit myoclonus in a significant number of patients. However, whether myoclonus is associated with EEG-confirmed epileptiform activities remains uncertain.
Depending on the origin and type of seizure, it may be challenging for EEG to differentiate between non-seizure and seizure activity during myoclonic events.
Due to the low level of evidence, patients with a history of seizures should have a risk versus benefit assessment to determine the best induction agent.
Full Reference List
- Micromedex [Electronic version]. Greenwood Village, CO: Truven Health Analytics. Retrieved September 6, 2021.
- Perier F. Seizure. 2018 Oct;61:170–176. PMID: 30176574.
- Zuckerbraun NS. Acad Emerg Med. 2006 Jun;13(6):602–9. PMID: 16636355.
- Grant IS, et al. Epileptiform seizures during prolonged etomidate sedation. Lancet 1983;322(8348):511–2.
- Guldner G, et al. Acad Emerg Med 2003;10:134–139.
- Reddy RV, et al. Anesth Analg 1993;77:1008–11.
- Ebrahim ZY, et al. Anesth Analg 1986;65:1004–6.
- Krieger W, et al. Seizures with etomidate anesthesia [letter]. Anesthesiol Analg. 1985;64:1226–7.
- Ghoneim MM. Anesth Analg 1977;56:479–85.
- Gabor G. Neuropsychopharmacol Hung 2007;9(3):125–30.
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